CN115487617A

CN115487617A - Aseptic dust-free workshop sterilization machine based on roxburgh rose production

Info

Publication number: CN115487617A
Application number: CN202211135621.1A
Authority: CN
Inventors: 闫福泉; 龚超云
Original assignee: Guizhou Tianci Guibao Food Co ltd
Current assignee: Guizhou Tianci Guibao Food Co ltd
Priority date: 2022-09-19
Filing date: 2022-09-19
Publication date: 2022-12-20

Abstract

The invention discloses a sterile dust-free workshop sterilization machine based on roxburgh rose production, which comprises a sterilization and dust removal machine box assembly in a roxburgh rose workshop, wherein a barrel body of an air outlet barrel assembly, a barrel body of a connecting air barrel assembly and a barrel body of an air inlet barrel assembly are in a dynamic butt joint structure, an installation gap of a sterilization and dust removal filtering assembly is formed between the air outlet barrel assembly and the barrel body of the connecting air barrel assembly, air in the roxburgh rose workshop circulates in the air outlet barrel assembly, the connecting air barrel assembly and the air inlet barrel assembly, in the process, the air in the roxburgh rose workshop is filtered by the sterilization and dust removal filtering assembly, dust and bacteria in the air are filtered on the sterilization and dust removal filtering assembly, at the moment, the filtered bacteria are sterilized by continuous irradiation of an ultraviolet sterilizing lamp, the positions of a plurality of groups of the sterilization and dust removal filtering assemblies can be changed, and when the positions are changed, the installation gap is opened and closed between the air outlet barrel body, the connecting air inlet barrel body and the sterilization and dust removal filtering assembly are matched with the positions for replacement.

Description

Aseptic dust-free workshop sterilization machine based on roxburgh rose production

Technical Field

The invention belongs to the technical field of food processing production, and particularly relates to a sterilizing machine based on a roxburgh rose production sterile dust-free workshop.

Background

The roxburgh rose grows in sunny hillside, valley, roadside and shrub clusters with the altitude of 500-2500 m, is a natural wild fruit in Guizhou, huxi mountain, xiangxi, liangshan, and Minning mountain areas and the like, and is artificially planted in large areas in unsealed cities of Guizhou province and Henan province. The production of the rosa roxburghii tratt is a production process for processing agricultural product raw materials into more valuable consumer goods, and is an important link for agricultural products to enter the consumption field from the production field.

The prior art has the following problems: the production and processing of the rosa roxburghii tratt belong to food processing, the processing process must ensure the sterility and dustless environment of a production workshop, the sterility and dustless environment of the rosa roxburghii tratt production workshop is to ensure the quality of the rosa roxburghii tratt production and processing, the sterility and dustless environment of the existing rosa roxburghii tratt production workshop is mainly purified and sterilized by ultraviolet rays, the existing ultraviolet sterilization must ensure the continuous irradiation for more than half an hour, and bacteria in the air of the workshop can be killed, but the air of the existing rosa roxburghii tratt production workshop is circulated and cannot be continuously sterilized for half an hour, meanwhile, the existing dust removal purification mostly carries out filtering and dust removal through a filter screen, but when the filter screen is used for a long time, the filter screen needs to be disassembled, cleaned and replaced, a certain time can be wasted in the process, the subsequent production can be influenced by shutdown, meanwhile, the existing solution method uses two sets of standby filter mechanisms, the use cost can be greatly increased, and the existing filter screen can be inconvenient to be disassembled, so that the sterile dustless bacteria remover based on the rosa roxburghii tratt production is urgently needed to solve the problems.

Disclosure of Invention

To solve the problems set forth in the background art described above. The invention provides a sterile dust-free workshop sterilization machine based on roxburgh rose production, which has the characteristics of convenience in use and quick replacement.

In order to achieve the purpose, the invention provides the following technical scheme: the aseptic dust-free workshop sterilization machine based on the roxburgh rose production comprises a roxburgh rose workshop sterilization and dust removal machine box assembly, wherein an air outlet barrel assembly and an air inlet barrel assembly are respectively arranged at the top and the bottom inside the roxburgh rose workshop sterilization and dust removal machine box assembly in a sliding manner, a linking air barrel assembly is arranged at the rear end inside the roxburgh rose workshop sterilization and dust removal machine box assembly in a sliding manner, a transposition assembly is rotatably arranged at the middle end inside the roxburgh rose workshop sterilization and dust removal machine box assembly, and four groups of sterilization, dust removal and filtration assemblies are mounted on the transposition assembly;

the sterilization and dust removal machine box assembly for the roxburgh rose workshop comprises a sterilization and dust removal machine box for the roxburgh rose workshop, wherein a first inner sliding sleeve seat stand and a second inner sliding sleeve seat stand are fixedly arranged at two ends of the bottom of the top of the sterilization and dust removal machine box for the roxburgh rose workshop;

the transposition assembly comprises a central shaft platform, four supporting arm rods and a transposition shaft rod are arranged on the central shaft platform, a belt groove installation seat platform is fixedly arranged at the end part of each supporting arm rod, buckling plates are arranged on two sides of the belt groove installation seat platform in a rotating mode, a pushing spring is arranged between the bottom of each buckling plate and the corresponding belt groove installation seat platform, a transposition shaft disc is arranged at the end part of each transposition shaft rod, and a limiting arc groove and a shifting sliding groove are formed in the transposition shaft disc.

Preferably, the air outlet cylinder assembly comprises an air outlet cylinder, a first toothed plate is arranged at the top of the air outlet cylinder, and an ultraviolet germicidal lamp is arranged inside the air outlet cylinder;

the linking air duct assembly comprises an arc linking air duct, and second toothed plates are respectively arranged at the top and the bottom of the arc linking air duct;

the degerming and dedusting filter assembly comprises a degerming and dedusting filter screen, a mounting seat rod is fixedly arranged on the degerming and dedusting filter screen, and a buckling and pressing platform disc is arranged on the mounting seat rod.

Preferably, the air outlet cylinder reciprocates in the first inner sliding sleeve seat platform, the structure of the air inlet cylinder assembly is consistent with that of the air outlet cylinder assembly, and the air inlet cylinder assembly reciprocates in the first inner sliding sleeve seat platform at the bottom.

Preferably, the both sides denticle and the meshing of first pinion rack and second pinion rack of synchronous fluted disc, the arc type links up the dryer and in the reciprocal slip of second inner sliding sleeve seat platform, the barrel that goes out air cylinder subassembly, links up air cylinder subassembly and air inlet cylinder subassembly is in the structure that developments can dock, form degerming dust removal filter assembly's installation clearance between the barrel that goes out air cylinder subassembly, links up air cylinder subassembly and air inlet cylinder subassembly.

Preferably, the mounting seat rod and the slotted hole in the slotted mounting seat platform are of square structures matched with each other, and the mounting seat rod is inserted into the mounting seat groove of the slotted mounting seat platform.

Preferably, the top plate body of the buckling and pressing plate is buckled and pressed on the table body of the buckling and pressing table disc through the pushing of the pushing spring.

Preferably, the transposition shaft lever is rotatably connected with the first support inner bedplate through a bearing seat, and the degerming and dust-removing filter assembly penetrates through a side case of the degerming and dust-removing case assembly in the roxburgh rose workshop through the transposition side groove.

Preferably, the poking wheel rotates in a limiting arc groove in a limiting mode, and a poking rod on the poking arm pokes the transposition shaft disc through the poking sliding groove.

Compared with the prior art, the invention has the beneficial effects that:

(1) When the air-out and dust-removing filter assembly is actually used, the air inlet barrel assembly is communicated with an external pressurized air supply device, air in a roxburgh rose workshop circulates in the air-out barrel assembly, the connecting air barrel assembly and the air inlet barrel assembly, in the process, the air in the roxburgh rose workshop is filtered by the bacteria-removing and dust-removing filter assembly, dust and bacteria in the air are filtered on the bacteria-removing and dust-removing filter assembly, the filtered bacteria are sterilized by continuous irradiation of the ultraviolet sterilizing lamp, and the bacteria-removing and dust-removing of the roxburgh rose workshop are realized by the mode;

(2) When the sterilization and dust removal filtering component is used for a long time, the sterilization and dust removal filtering component is installed on the transposition component, when the sterilization and dust removal filtering component is actually used, the transposition shaft lever is rotatably connected with the first support inner bedplate through the bearing seat, the sterilization and dust removal filtering component penetrates through a side case of the sterilization and dust removal machine case component in a roxburgh rose workshop through the transposition side groove, the poking wheel rotates in the limiting arc groove in a limiting mode, the poking rod on the poking arm pokes the transposition shaft disc through the poking sliding groove, when the sterilization and dust removal filtering component is actually used, the poking wheel is driven to rotate through the second driving motor, and through the matching of the structures, transposition between the groups of the sterilization and dust removal filtering components is realized;

(3) According to the invention, the mounting seat rod and the slotted hole in the mounting seat platform with the slot are of square structures which are matched with each other, the mounting seat rod is inserted into the mounting seat slot of the mounting seat platform with the slot, and the top plate body of the buckling and pressing plate is buckled and pressed on the platform body of the buckling and pressing platform disc through the pushing of the pushing spring, so that the sterilization, dust removal and filtration assembly is convenient to disassemble, assemble and replace through the mode;

(4) When the sterilization and dust removal filter assembly is actually used, an installation gap of the sterilization and dust removal filter assembly is formed among the air outlet barrel assembly, the air duct assembly and the air inlet barrel assembly, the arc-shaped connecting air duct reciprocally slides in the second inner sliding sleeve seat platform, the air outlet barrel reciprocally slides in the first inner sliding sleeve seat platform, the structure of the air inlet barrel assembly is consistent with that of the air outlet barrel assembly, the two side tooth bodies of the synchronous fluted disc reciprocally sliding in the first inner sliding sleeve seat platform at the bottom of the air inlet barrel assembly are meshed with the first toothed plate and the second toothed plate, when the sterilization and dust removal filter assembly is replaced, the synchronous fluted disc is driven to rotate through the first driving motor, and the linkage of the structures is matched, so that the opening and closing of the installation gap among the air outlet barrel assembly, the connecting air duct assembly and the air inlet barrel assembly are realized, and the rotation and the butt joint closing after the replacement are convenient when the sterilization and dust removal filter assembly is replaced.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a perspective view of the sterilization and dust removal machine box assembly in the Rosa roxburghii Tratt workshop according to the present invention;

FIG. 4 is a perspective view of a portion of the structure of the present invention;

FIG. 5 is an exploded view of a portion of the structure of the present invention;

FIG. 6 is a perspective view of the indexing assembly and the sterilizing and dust removing filter assembly of the present invention;

FIG. 7 is an exploded view of the indexing assembly and the degerming and dust-removing filter assembly of the present invention;

in the figure: 100. a sterilization and dust removal machine box assembly in a roxburgh rose workshop; 101. a sterilization and dust removal case in a roxburgh rose workshop; 102. a first drive motor; 103. a first inner sliding sleeve seat; 104. a second inner sliding sleeve seat; 105. a transposition side groove; 106. a first supporting inner deck; 107. a second supporting inner deck; 108. a second drive motor; 109. a toggle wheel; 110. a synchronous fluted disc; 111. a poke arm; 112. a poke rod; 200. a transposition assembly; 201. a central pillow block; 202. a support arm; 203. a grooved mounting block; 204. buckling and pressing a plate; 205. pushing a spring; 206. a transposition shaft lever; 207. a transposition shaft disc; 208. a limiting arc groove; 209. poking the chute; 300. an air outlet barrel assembly; 301. an air outlet cylinder; 302. a first toothed plate; 303. an ultraviolet germicidal lamp; 400. connecting the air duct assembly; 401. the arc-shaped connecting air cylinder; 402. a second toothed plate; 500. a degerming and dedusting filter assembly; 501. a sterilization and dust removal filter screen; 502. mounting a seat post; 503. buckling and pressing the platform disc; 600. air intake section of thick bamboo subassembly.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides the following technical solutions: the aseptic dust-free workshop sterilization machine based on the roxburgh rose production comprises a roxburgh rose workshop sterilization and dust removal machine box assembly 100, wherein an air outlet cylinder assembly 300 and an air inlet cylinder assembly 600 are respectively arranged at the top and the bottom inside the roxburgh rose workshop sterilization and dust removal machine box assembly 100 in a sliding manner, a linking air cylinder assembly 400 is arranged at the rear end inside the roxburgh rose workshop sterilization and dust removal machine box assembly 100 in a sliding manner, a transposition assembly 200 is rotatably arranged at the middle end inside the roxburgh rose workshop sterilization and dust removal machine box assembly 100, and four groups of sterilization, dust removal and filtration assemblies 500 are mounted on the transposition assembly 200;

the sterilization and dust removal machine box assembly 100 for the roxburgh rose workshop comprises a sterilization and dust removal machine box 101 for the roxburgh rose workshop, a first inner sliding sleeve base platform 103 and a second inner sliding sleeve base platform 104 are fixedly arranged at two ends of the bottom of the top of the sterilization and dust removal machine box 101 for the roxburgh rose workshop, a second supporting inner platen 107 and a first supporting inner platen 106 are respectively and fixedly arranged in the middle of the sterilization and dust removal machine box 101 for the roxburgh rose workshop, a second driving motor 108 is arranged on the second supporting inner platen 107, a shifting wheel 109 is arranged on an output shaft of the second driving motor 108, a shifting arm 111 is arranged on the shifting wheel 109, a shifting rod 112 is arranged on the shifting arm 111, first driving motors 102 are fixedly arranged at the top and the bottom of the sterilization and dust removal machine box 101 for the roxburgh rose workshop, a synchronous fluted disc 110 is arranged on the output shaft of the first driving motor 102, and transposition side grooves 105 are formed in two sides of the sterilization and dust removal machine box 101 for the roxburgh rose workshop;

the transposition assembly 200 comprises a central pillow block 201, four supporting arm rods 202 and a transposition shaft rod 206 are arranged on the central pillow block 201, the end portions of the supporting arm rods 202 are fixedly provided with a belt groove mounting base table 203, two sides of the belt groove mounting base table 203 are both rotatably provided with buckling plates 204, a pushing spring 205 is arranged between the bottoms of the buckling plates 204 and the belt groove mounting base table 203, the end portion of the transposition shaft rod 206 is provided with a transposition shaft disc 207, and a limiting arc groove 208 and a stirring sliding groove 209 are formed in the transposition shaft disc 207.

In this embodiment, preferably, the air outlet cylinder assembly 300 includes an air outlet cylinder 301, a first toothed plate 302 is disposed at the top of the air outlet cylinder 301, and an ultraviolet germicidal lamp 303 is disposed inside the air outlet cylinder 301;

the connecting air duct assembly 400 comprises an arc-shaped connecting air duct 401, and the top and the bottom of the arc-shaped connecting air duct 401 are respectively provided with a second toothed plate 402;

degerming dust removal filter assembly 500 includes degerming dust removal filter screen 501, and degerming dust removal filter screen 501 is last to be fixed to be provided with mount pole 502, is provided with on the mount pole 502 to withhold platform dish 503.

In this embodiment, it is preferable that the air outlet barrel 301 reciprocally slides in the first inner sliding sleeve base 103, the structure of the air inlet barrel assembly 600 is identical to that of the air outlet barrel assembly 300, and the air inlet barrel assembly 600 reciprocally slides in the first inner sliding sleeve base 103 at the bottom.

In this embodiment, preferably, the tooth bodies on both sides of the synchronous fluted disc 110 are engaged with the first tooth plate 302 and the second tooth plate 402, the arc-shaped engaging wind cylinder 401 slides back and forth in the second inner sliding sleeve seat 104, the cylinders of the wind outlet cylinder assembly 300, the engaging wind cylinder assembly 400 and the wind inlet cylinder assembly 600 are in a dynamic butt-joint structure, and the installation gaps of the degerming, dedusting and filtering assembly 500 are formed among the cylinders of the wind outlet cylinder assembly 300, the engaging wind cylinder assembly 400 and the wind inlet cylinder assembly 600.

In this embodiment, it is preferable that the slot holes in the mounting post 502 and the slotted mounting base 203 are square structures matching with each other, and the mounting post 502 is inserted into the mounting slot of the slotted mounting base 203.

In this embodiment, preferably, the top plate of the pressing plate 204 is pressed against the platen of the pressing platen 503 by the urging of the urging spring 205.

In this embodiment, preferably, the indexing shaft 206 is rotatably connected to the first inner supporting platen 106 through a bearing seat, and the degerming and dust-removing filter assembly 500 penetrates through the side cabinet of the degerming and dust-removing cabinet assembly 100 in the roxburgh rose workshop through the indexing side groove 105.

In this embodiment, preferably, the toggle wheel 109 is in limited rotation in the arc-limiting groove 208, and the toggle rod 112 on the toggle arm 111 toggles the shift shaft disc 207 through the toggle sliding groove 209.

The working principle and the using process of the invention are as follows: when the sterilizing and dust removing filter assembly is used, the air outlet barrel assembly 300, the connecting air barrel assembly 400 and the air inlet barrel assembly 600 are in a dynamic butt-joint structure, an installation gap of the sterilizing and dust removing filter assembly 500 is formed between the air outlet barrel assembly 300, the connecting air barrel assembly 400 and the air inlet barrel assembly 600, the ultraviolet sterilizing lamp 303 is arranged inside the air outlet barrel 301, the structure of the air inlet barrel assembly 600 is consistent with that of the air outlet barrel assembly 300, when the sterilizing and dust removing filter assembly 500 is used actually, the air inlet barrel assembly 600 is communicated with an external pressurizing air supply device, air in a roxburgh rose workshop circulates in the air outlet barrel assembly 300, the connecting air barrel assembly 400 and the air inlet barrel assembly 600, in the process, the air in the roxburgh rose workshop is filtered by the sterilizing and dust removing filter assembly 500, dust and bacteria in the air are filtered on the sterilizing and dust removing filter assembly 500, and the bacteria in the filtered bacterium removing workshop are sterilized by continuous irradiation of the ultraviolet sterilizing lamp 303, and dust removing of the roxburgh rose workshop is realized by the mode;

when the filtering device is used for a long time, the degerming and dedusting filtering assembly 500 is installed on the transposition assembly 200, when the filtering device is actually used, the transposition shaft lever 206 is rotatably connected with the first supporting inner platen 106 through a bearing seat, the degerming and dedusting filtering assembly 500 penetrates through a side cabinet of the degerming and dedusting machine box assembly 100 of a roxburgh pear workshop through the transposition side groove 105, the poking wheel 109 rotates in the limiting arc groove 208 in a limiting mode, the poking rod 112 on the poking arm 111 pokes the transposition shaft disc 207 through a poking sliding groove 209, when the filtering device is actually used, the poking wheel 109 is driven to rotate through the second driving motor 108, through the matching of the structures, transposition among a plurality of groups of degerming and dedusting filtering assemblies 500 is realized, meanwhile, the slotted holes in the installation seat lever 502 and the slotted installation seat table 203 are of square structures which are matched with each other, the installation seat lever 502 is inserted into the installation seat groove of the slotted installation table 203, and through the thrusting of the thrusting spring 205, the top plate body of the buckling and pressing table 503 are buckled and pressed on the table body of the degerming and dedusting filtering assembly 500;

meanwhile, during actual use, an installation gap of the degerming and dedusting filter assembly 500 is formed between the air outlet cylinder assembly 300, the connection air cylinder assembly 400 and the air inlet cylinder assembly 600, the arc connection air cylinder 401 slides in the second inner sliding sleeve base 104 in a reciprocating manner, the air outlet cylinder 301 slides in the first inner sliding sleeve base 103 in a reciprocating manner, the structure of the air inlet cylinder assembly 600 is consistent with that of the air outlet cylinder assembly 300, the air inlet cylinder assembly 600 slides in the first inner sliding sleeve base 103 at the bottom in a reciprocating manner, two side tooth bodies of the synchronous fluted disc 110 are meshed with the first toothed plate 302 and the second toothed plate 402, when the degerming and dedusting filter assembly 500 is replaced, the synchronous fluted disc 110 is driven to rotate by the first driving motor 102, and the linkage of the structures is matched to realize the opening and closing of the installation gap between the air outlet cylinder assembly 300, the connection air cylinder assembly 400 and the air inlet cylinder assembly 600, so that the degerming and dedusting filter assembly 500 can be rotated to be opened and closed after replacement.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Aseptic dustless workshop sterilization machine based on roxburgh rose production, including roxburgh rose workshop sterilization dust shaker case subassembly (100), its characterized in that: an air outlet cylinder assembly (300) and an air inlet cylinder assembly (600) are respectively arranged at the top and the bottom in the sterilization and dust removal machine box assembly (100) of the roxburgh rose workshop in a sliding manner, a linking air cylinder assembly (400) is arranged at the rear end in the sterilization and dust removal machine box assembly (100) of the roxburgh rose workshop in a sliding manner, a transposition assembly (200) is rotatably arranged at the middle end in the sterilization and dust removal machine box assembly (100) of the roxburgh rose workshop, and four groups of sterilization, dust removal and filtration assemblies (500) are arranged on the transposition assembly (200);

the roxburgh rose workshop sterilization and dust removal machine box assembly (100) comprises a roxburgh rose workshop sterilization and dust removal machine box (101), wherein a first inner sliding sleeve base table (103) and a second inner sliding sleeve base table (104) are fixedly arranged at two ends of the top of the roxburgh rose workshop sterilization and dust removal machine box (101), a second supporting inner table plate (107) and a first supporting inner table plate (106) are fixedly arranged in the middle of the roxburgh rose workshop sterilization and dust removal machine box (101) respectively, a second driving motor (108) is arranged on the second supporting inner table plate (107), a poking wheel (109) is arranged on an output shaft of the second driving motor (108), a poking arm (111) is arranged on the poking wheel (109), a poking rod (112) is arranged on the poking arm (111), a first driving motor (102) is fixedly arranged at the top and the bottom of the roxburgh rose workshop sterilization and dust removal machine box (101), a synchronous fluted disc (110) is arranged on an output shaft of the first driving motor (102), and transposition side grooves (105) are formed in two sides of the roxburgh rose workshop sterilization and dust removal machine box (101);

the transposition assembly (200) comprises a central shaft platform (201), four supporting arm rods (202) and a transposition shaft rod (206) are arranged on the central shaft platform (201), a belt groove mounting base (203) is fixedly arranged at the end part of each supporting arm rod (202), buckling plates (204) are rotatably arranged on two sides of the belt groove mounting base (203), a pushing spring (205) is arranged between the bottom of each buckling plate (204) and the corresponding belt groove mounting base (203), a transposition shaft disc (207) is arranged at the end part of each transposition shaft rod (206), and a limiting arc groove (208) and a shifting sliding groove (209) are formed in the transposition shaft disc (207).

2. The roxburgh rose production based sterile dust free plant sterilization machine according to claim 1, characterized in that: the air outlet barrel assembly (300) comprises an air outlet barrel (301), a first toothed plate (302) is arranged at the top of the air outlet barrel (301), and an ultraviolet germicidal lamp (303) is arranged inside the air outlet barrel (301);

the linking air duct assembly (400) comprises an arc-shaped linking air duct (401), and second gear plates (402) are respectively arranged at the top and the bottom of the arc-shaped linking air duct (401);

degerming dust removal filtering component (500) is including degerming dust removal filter screen (501), degerming dust removal filter screen (501) are gone up the fixed mount pole (502) that is provided with, be provided with on mount pole (502) and withhold platform dish (503).

3. The roxburgh rose production-based sterile dust-free plant sterilization machine according to claim 2, characterized in that: the air outlet cylinder (301) slides in a first inner sliding sleeve seat (103) in a reciprocating manner, the structure of the air inlet cylinder assembly (600) is consistent with that of the air outlet cylinder assembly (300), and the air inlet cylinder assembly (600) slides in the first inner sliding sleeve seat (103) at the bottom in a reciprocating manner.

4. The roxburgh rose production-based sterile dust-free plant sterilization machine according to claim 2, characterized in that: the both sides denticle and first pinion rack (302) and second pinion rack (402) meshing of synchronous fluted disc (110), the arc type links up dryer (401) and reciprocates in second inner sliding sleeve seat platform (104), the barrel that goes out dryer subassembly (300), links up dryer subassembly (400) and air inlet section of thick bamboo subassembly (600) is in the structure that the developments can dock, go out the installation clearance that forms degerming dust removal filter assembly (500) between the barrel of dryer subassembly (300), linking dryer subassembly (400) and air inlet section of thick bamboo subassembly (600).

5. The roxburgh rose production-based sterile dust-free plant sterilization machine according to claim 2, characterized in that: the slotted holes in the mounting seat rod (502) and the slotted mounting seat (203) are of square structures matched with each other, and the mounting seat rod (502) is inserted into the mounting seat slot of the slotted mounting seat (203).

6. The roxburgh rose production based sterile dust free plant sterilization machine according to claim 1, characterized in that: through the pushing of the pushing spring (205), the top plate body of the buckling and pressing plate (204) is buckled and pressed on the table body of the buckling and pressing table disc (503).

7. The roxburgh rose production based sterile dust free plant sterilization machine according to claim 1, wherein: the transposition shaft lever (206) is rotatably connected with the first supporting inner bedplate (106) through a bearing seat, and the degerming and dust-removing filter assembly (500) penetrates through a side case of the degerming and dust-removing machine box assembly (100) in the roxburgh rose workshop through the transposition side groove (105).

8. The roxburgh rose production based sterile dust free plant sterilization machine according to claim 1, characterized in that: the toggle wheel (109) rotates in a limiting arc groove (208) in a limiting mode, and the toggle rod (112) on the toggle arm (111) toggles the transposition shaft disc (207) through the toggle sliding groove (209).